The dynamics of mutational selection in cutaneous squamous carcinogenesis
Greta Skrupskelyte 1 , Joanna C Fowler 2 , Stefan Dentro 2 3 4 , Carine Winkler 5 , Irina Abnizova 2 , Niklaus Beumer 3 6 7 , Roshan Sood 2 , Thomas Quarrell 8 , Charlotte King 2 , Jivko Kamarashev 9 , Emmanuella Guenova 10 11 , Moritz Gerstung 3 4 , Benjamin A Hall 12 , Liliane Michalik 5 , Philip H Jones 13 14
- PMID: 41526710
- DOI: 10.1038/s42003-025-09406-9
Abstract
Identifying the mutant genes that are selected during carcinogenesis is key to identifying candidates for intervention and understanding the processes that promote transformation. Here we applied two selection metrics to study the dynamics of mutational selection in a mouse model of ultraviolet light driven skin carcinogenesis in which multiple synchronous tumors develop in each animal. Sequencing normal skin and tumors over a time course revealed two genetic routes to squamous carcinoma. Nonsynonymous Trp53 mutants were positively selected in both epidermis and tumors and present in 90% of tumors. The remaining tumors carried other oncogenic mutants, including activating Kras mutations. However, other positively selected mutant genes lost their competitive advantage in heavily mutated epidermis and in tumors. We found ten mutant genes under negative selection in normal skin, one of which was also negatively selected in tumors. In addition one gene was negatively selected in tumors but not normal skin. We conclude that analysing selection in normal tissue alongside tumors may resolve the dynamics of selection in carcinogenesis and refine the identification of cancer drivers.